CN210367368U - Rotary sludge in-situ solidification device - Google Patents

Abstract

The utility model discloses a rotation mud normal position solidification equipment, including digging the quick-witted joint, slewing bearing, adapter, stirring support arm, medicament conveyer pipe, left side section of thick bamboo subassembly and right side section of thick bamboo subassembly set up in the one end both sides of stirring support arm, and the other end of stirring support arm is connected with the one end that the gyration was supported through the adapter, and the other end that the gyration was supported is connected with digging the quick-witted articulate, and digging the quick-witted joint be used for with digging machine dipper arm and connecting rod structure be connected, and the medicament conveyer pipe sets firmly on the stirring support arm. Realize the stirring of 3 above directions, avoided the stirring dead angle, make mud and medicament stirring mixing effect better, solidification efficiency is higher.

Description

Rotary sludge in-situ solidification device

Technical Field

The utility model relates to an engineering machine tool technical field, concretely relates to rotation mud normal position solidification equipment.

Background

For years, the sludge and the sludge in China mostly adopt a simple yard treatment method, the consolidation time is long, and secondary pollution is easily caused; the in-situ curing treatment is a reasonable method, most in-situ curing devices applied in the market at present are additionally provided with stirring heads for excavators, the construction equipment can only realize stirring in a single direction, and if stirring in three directions is to be realized, the excavator body needs to be turned, so that the efficiency is low. So to the above-mentioned equipment shortcoming, the utility model provides a rotation mud normal position solidification equipment.

Disclosure of Invention

The to-be-solved technical problem of the utility model is, to the above-mentioned defect that prior art exists, provide a rotation mud normal position solidification equipment, realize the stirring of 3 above directions, avoided the stirring dead angle, make mud and medicament stirring mixed effect better, solidification efficiency is higher.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

the utility model provides a rotation mud normal position solidification equipment, including digging the quick-witted joint, slewing bearing, the adapter, the stirring support arm, the medicament conveyer pipe, left drum subassembly and right drum subassembly set up in the one end both sides of stirring support arm, the other end of stirring support arm is connected with the one end of slewing bearing through the adapter, the other end of slewing bearing is connected with digging the quick-witted articulate, it is used for being connected with excavator dipper arm and connecting rod structure to dig the quick-witted joint, the medicament conveyer pipe sets firmly on the stirring support arm.

According to the technical scheme, the right rotary drum assembly comprises a right speed reducer, a right rotary drum, a rotating flange, a floating seal, a sealing flange, a right hydraulic motor and a hydraulic pipeline, the right speed reducer is arranged in the right rotary drum, the output end of the right speed reducer is connected with the right rotary drum through the rotating flange, the input end of the right speed reducer is connected with the output end of the right hydraulic motor, the right hydraulic motor is fixedly arranged on the stirring support arm, and the right hydraulic motor is connected with the hydraulic pipeline.

According to the technical scheme, the hydraulic pipeline is connected with the power source of the excavator.

According to the technical scheme, the right rotary drum assembly further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the right speed reducer from inside to outside, and the sealing flange seals the rotating flange and the right speed reducer in the right rotary drum.

According to the technical scheme, the right hydraulic motor is connected with the right speed reducer through the spline.

According to the technical scheme, the left rotary drum component comprises a left speed reducer, a left rotary drum, a rotating flange, a floating seal, a sealing flange, a left hydraulic motor and a hydraulic pipeline, the left speed reducer is arranged in the left rotary drum, the output end of the left speed reducer is connected with the left rotary drum through the rotating flange, the input end of the left speed reducer is connected with the output end of the left hydraulic motor, the left hydraulic motor is fixedly arranged on the stirring support arm, and the left hydraulic motor is connected with the hydraulic pipeline.

According to the technical scheme, the left rotary drum assembly further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the left speed reducer from inside to outside, and the sealing flange seals the rotating flange and the left speed reducer in the left rotary drum.

According to the technical scheme, the right hydraulic motor is connected with the right speed reducer through the spline.

According to the technical scheme, the floating seal is arranged between the rotating flange and the sealing flange.

According to the technical scheme, the medicament conveying pipe is fixedly arranged on the back surface of the stirring support arm, and the output end of the medicament conveying pipe is arranged at the bottom of the stirring support arm.

The utility model discloses following beneficial effect has:

slewing bearing can make normal position solidification equipment rotatory 90 degrees, and the stirring (3 are contained more than 3 here) of 3 above directions are realized to left side section of thick bamboo subassembly and right side section of thick bamboo subassembly of cooperation, have avoided the stirring dead angle, make mud and medicament stirring mixing effect better, and solidification efficiency is higher.

Drawings

FIG. 1 is a schematic structural diagram of a rotary sludge in-situ solidification device in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a right drum assembly in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a left drum assembly in an embodiment of the present invention;

FIG. 4 is a schematic view of the rotary sludge in-situ solidification device according to the embodiment of the present invention;

in the figure, 1-excavator joint, 2-slewing bearing, 3-adapter, 4-stirring arm, 5-medicament delivery pipe, 6-left drum component, 7-right drum component, 8-right speed reducer, 9-right drum, 10-first rotating flange, 11-first floating seal, 12-first sealing flange, 13-right hydraulic motor, 14-first hydraulic pipeline, 15-second hydraulic pipeline, 16-left hydraulic motor, 17-second sealing flange, 18-second floating seal, 19-second rotating flange, 20-left speed reducer, 21-left drum, 22-excavator bucket arm and connecting rod structure.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1-4, the utility model provides an embodiment in one embodiment is a rotary sludge normal position solidification equipment, including digging quick-witted joint 1, slewing bearing 2, adapter 3, stirring support arm 4, medicament conveyer pipe 5, left drum subassembly 6 and right drum subassembly 7 set up in the one end both sides of stirring support arm 4, the other end of stirring support arm 4 passes through adapter 3 and is connected with slewing bearing's one end, slewing bearing's the other end and digging machine joint 1 are connected, digging machine joint 1 is used for being connected with digging machine bucket lever arm and connecting rod structure 22, medicament conveyer pipe 5 sets firmly on stirring support arm 4.

Further, the right rotary drum assembly 7 comprises a right speed reducer 8, a right rotary drum 9, a rotating flange, a right hydraulic motor 13 and a hydraulic pipeline, the right speed reducer 8 is arranged in the right rotary drum 9, the output end of the right speed reducer 8 is connected with the right rotary drum 9 through the rotating flange, the input end of the right speed reducer 8 is connected with the output end of the right hydraulic motor 13, the right hydraulic motor 13 is fixedly arranged on the stirring support arm 4, and the right hydraulic motor 13 is connected with the hydraulic pipeline.

Further, the hydraulic pipeline is connected with a power source of the excavator.

Further, the right rotary drum assembly 7 further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the right speed reducer 8 from inside to outside, and the sealing flange seals the rotating flange and the right speed reducer 8 in the right rotary drum 9.

Further, the right hydraulic motor 13 is connected to the right reduction gear 8 by a spline.

Further, the left rotary drum assembly 6 comprises a left speed reducer 20, a left rotary drum 21, a rotating flange, a floating seal, a sealing flange, a left hydraulic motor 16 and a hydraulic pipeline, the left speed reducer 20 is arranged in the left rotary drum 21, the output end of the left speed reducer 20 is connected with the left rotary drum 21 through the rotating flange, the input end of the left speed reducer 20 is connected with the output end of the left hydraulic motor 16, the left hydraulic motor 16 is fixedly arranged on the stirring support arm 4, and the left hydraulic motor 16 is connected with the hydraulic pipeline.

Further, the left rotary drum assembly 6 further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the left speed reducer 20 from inside to outside, and the sealing flange seals the rotating flange and the left speed reducer 20 in the left rotary drum 21.

Further, the right hydraulic motor 13 is connected to the right reduction gear 8 through a spline connection.

Further, a floating seal is arranged between the rotating flange and the sealing flange.

Further, the right drum assembly 7 contains a right speed reducer 8, a right drum 9, a first rotating flange 10, a first floating seal 11, a first sealing flange 12, a right hydraulic motor 13 and a first hydraulic pipeline 14; a right speed reducer 8 is arranged in the right rotary drum 9, one end of the right speed reducer 8 is connected with a first rotary flange 10, and the other end of the right speed reducer 8 is connected with a first sealing flange 12; a first floating seal 11 is arranged between the first rotating flange 10 and the first sealing flange 12; the right hydraulic motor 13 is connected with the right speed reducer 8 through a spline; the right hydraulic motor 13 is connected with the excavator power source through a first hydraulic pipeline 14.

Further, the left drum assembly 6 contains a left speed reducer 20, a left drum 21, a second rotating flange 19, a second floating seal 18, a second sealing flange 17, a left hydraulic motor 16, and a second hydraulic line 15; a left speed reducer 20 is arranged in the left rotary drum 21, one end of the left speed reducer 20 is connected with the second rotary flange 19, and the other end of the left speed reducer 20 is connected with the second sealing flange 17; a second floating seal 18 is arranged between the second rotating flange 19 and the second sealing flange 17; the left hydraulic motor 16 is connected with a left speed reducer 20 through spline connection; the left hydraulic motor 16 is connected with the excavator power source through a second hydraulic pipeline 15.

Further, the drug delivery pipe 5 is fixedly arranged on the back of the stirring support arm 4, and the output end of the drug delivery pipe is arranged at the bottom of the stirring support arm.

Further, stirring blades are spirally distributed on the outer walls of the left rotating cylinder and the right rotating cylinder.

The utility model discloses a working process:

the curing device is connected with the excavator through the stirring support arm 4, power is transmitted to the left hydraulic motor and the right hydraulic motor through the excavator, the speed reducer is driven by the hydraulic motors to achieve the purpose of driving the left rotary drum 9 and the right rotary drum 9, and the effect of mechanical rotation stirring is achieved. The hydraulic motor of the slewing bearing 2 can drive the stirring support arm 4 to rotate 90 degrees by the driving of the hydraulic power of the excavator, so that the stirring dead angle is avoided.

The utility model provides a rotation mud normal position solidification equipment, including left churn, right churn, stirring support arm 4, adapter 3, slewing bearing 2, dig quick-witted joint 1. The left mixing drum is connected on the left side of the mixing support arm 4, a rotary speed reducer is arranged inside the left mixing drum, one end of the speed reducer is connected with the left mixing drum, the other end of the speed reducer is connected with the mixing support arm 4, and the speed reducer is driven by a hydraulic motor. The right side of the stirring support arm 4 is connected with a right stirring cylinder, a rotary speed reducer is arranged inside the right stirring cylinder, one end of the speed reducer is connected with the stirring support arm 4, and the speed reducer is driven by a hydraulic motor. The top of the stirring support arm 4 is connected with an adapter 3, the adapter 3 is connected with one end of a slewing bearing 2, the other end of the slewing bearing 2 is connected with an excavator joint 1, and the other end of the excavator joint 1 is connected with an excavator bucket rod and a connecting rod mechanism. The drive power of the hydraulic motor and the slewing bearing 2 is supplied by the excavator.

The above is only a preferred embodiment of the present invention, and the scope of the right of the present invention should not be limited by this, so that the equivalent changes made in the claims of the present invention still belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a rotation mud normal position solidification equipment, its characterized in that, including digging the quick-witted joint, slewing bearing, the adapter, the stirring support arm, the medicament conveyer pipe, left drum subassembly and right drum subassembly set up in the one end both sides of stirring support arm, the other end of stirring support arm is connected with the one end of gyration support through the adapter, the other end of gyration support with dig quick-witted articulate, dig the quick-witted joint be used for with dig quick-witted dipper arm and connecting rod structural connection, the medicament conveyer pipe sets firmly on the stirring support arm.

2. The rotary sludge in-situ solidification device as claimed in claim 1, wherein the right drum assembly comprises a right speed reducer, a right drum, a rotating flange, a right hydraulic motor and a hydraulic pipeline, the right speed reducer is disposed in the right drum, an output end of the right speed reducer is connected to the right drum through the rotating flange, an input end of the right speed reducer is connected to an output end of the right hydraulic motor, the right hydraulic motor is fixedly disposed on the stirring arm, and the right hydraulic motor is connected to the hydraulic pipeline.

3. The rotary sludge in-situ solidification device as claimed in claim 2, wherein the right drum assembly further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the right reducer from inside to outside, and the sealing flange seals the rotating flange and the right reducer in the right drum.

4. The rotary sludge in-situ solidification device as claimed in claim 2, wherein the right hydraulic motor is connected with the right speed reducer through a spline.

5. The rotary sludge in-situ solidification device as claimed in claim 1, wherein the left drum assembly comprises a left speed reducer, a left drum, a rotating flange, a floating seal, a sealing flange, a left hydraulic motor and a hydraulic pipeline, the left speed reducer is disposed in the left drum, an output end of the left speed reducer is connected with the left drum through the rotating flange, an input end of the left speed reducer is connected with an output end of the left hydraulic motor, the left hydraulic motor is fixedly disposed on the stirring arm, and the left hydraulic motor is connected with the hydraulic pipeline.

6. The rotary sludge in-situ solidification device as claimed in claim 5, wherein the left drum assembly further comprises a sealing flange, the rotating flange and the sealing flange are sequentially sleeved on the left reducer from inside to outside, and the sealing flange seals the rotating flange and the left reducer in the left drum.

7. The rotary sludge in-situ solidification device as claimed in claim 5, wherein the right hydraulic motor is connected with the right speed reducer through a spline.

8. The rotary sludge in-situ solidification device as claimed in claim 3 or 6, wherein a floating seal is arranged between the rotary flange and the sealing flange.

9. The rotary sludge in-situ solidification device as claimed in claim 1, wherein the chemical delivery pipe is fixedly disposed at the back of the stirring arm, and the output end of the chemical delivery pipe is disposed at the bottom of the stirring arm.

10. The rotary sludge in-situ solidification device as claimed in claim 2 or 5, wherein the hydraulic pipeline is connected with a power source of the excavator.

Images